ANTIFERROMAGNETIC SPINTRONICS

Overview

Antiferromagnetic materials could represent the future of spintronics thanks to the interesting features they combine: they are robust against perturbation due to magnetic fields, produce no stray fields, display ultrafast dynamics and generate large magneto-transport effects. In this team, research efforts are being invested in unraveling spin-dependent transport properties of antiferromagnets.

Research topics

Spin transport in antiferromagnetic materials

Whether spin currents can be injected, transmitted and converted in antiferromagnetic materials, how subsequent variations can be detected, and what is the actual influence of the magnetic order are some of the thrilling challenges being addressed.Read more

Magnetism of antiferromagnetic materials

To what extent and how the magnetic properties of antiferromagnetic materials shall and can be adjusted for use as functional materials in spintronic applications are some of the questions addressed in this activity.Read more

Proposals for student internships for Spring 2018 (October 03rd, 2017) You find here the list of proposals for Master-2 internships to take place during Spring 2018. In most cases, these internships are intended to be suitable for a longer-term PhD work. Interested Master-1 students are ...

About Spintec

Positioned at the crossroad of science and technology, Spintec is one of the leading research laboratories in spintronics.
From basic science to proof of concepts and technology transfer, Spintec is the ideal place to conduct R&D projects in nanomagnetism and spin-electronics.
Whether a skilled individual, a corporation or a research organization, there are many opportunities for you at Spintec.
Come and join us !

SPINTEC is jointly operated by CEA, CNRS, UGA, G-INP and located in Grenoble, France